Domestic wiring _ praveen

Praveen kumar .C
Assistant Professor
Dept. of EEE
SKIT, Bangalore
Basic Electrical Engineering
Domestic Wiring
Praveen kumar .C, Dept. of EEE, SKIT,
Bangalore

Distribution of Electric Energy to Domestic
Consumer
Bangalore

•Types of wiring
•Suitability of a particular wiring system for a
given installation
•Corridor and staircase lighting
•Necessity of earthing
•Different types of earthing
•Fuses
•Different types of fuses
•Imp VTU Questions
Highlights of the chapter
Bangalore

Introduction
A network of wires drawn from the meter board to the
various energy consuming points (lamps, fans,
motors etc) through control and protective devices for
efficient distribution of power is known as electrical
wiring.
Electrical wiring done in residential and commercial
buildings to provide power for lights, fans, pumps and
other domestic appliances is known as domestic
wiring. There are several wiring systems in practice.
They can be classified into different Types
Bangalore

Types of Wiring:
1. Cleat wiring
2. CTS wiring or TRS wiring or batten wiring
3. Metal sheathed wiring or lead sheathed
wiring
4. Casing and capping
5. Conduit wiring
Bangalore

Cleat wiring
•: In this type of wiring, insulated conductors (usually
VIR, Vulcanized Indian Rubber) are supported on
porcelain or wooden cleats.
•The cleats have two halves one base and the other
cap.
• The cables are placed in the grooves provided in the
base and then the cap is placed. Both are fixed
securely on the walls by 40mm long screws.
• The cleats are easy to erect and are fixed 4.5 – 15
cms apart.
•This wiring is suitable for temporary installations
where cost is the main criteria but not the appearance.Praveen kumar .C, Dept. of EEE, SKIT,
Bangalore

Cleat wiring
Bangalore

Bangalore

Advantages and Disadvantages:
Advantages:
1. Easy installation
2. Materials can be retrieved for reuse
3. Flexibility provided for inspection, modifications
and expansion.
4. Relatively economical
5. Skilled manpower not required.
Disadvantages:
1. Appearance is not good
2. Open system of wiring requiring regular cleaning.
3. Higher risk of mechanical injury.
Bangalore

CTS ( Cable Tyre Sheathed) / TRS ( Tough
Rubber Sheathed ) / Batten wiring:
• In this wiring system, wires sheathed in tough
rubber are used which are quite flexible. They are
clipped on wooden battens with brass clips (link or
joint) and fixed on to the walls or ceilings by flat
head screws.
• These cables are moisture and chemical proof.
•They are suitable for damp climate but not suitable
for outdoor use in sunlight.
• TRS wiring is suitable for lighting in low voltage
installations. Praveen kumar .C, Dept. of EEE, SKIT,
Bangalore

CTS ( Cable Tyre Sheathed) / TRS ( Tough
Rubber Sheathed ) / Batten wiring:
Bangalore

Advantages:
1. Easy installation and is durable
2. Lower risk of short circuit.
3. Cheaper than casing and capping system of
wiring
4. Gives a good appearance if properly erected.
Disadvantages:
1. Danger of mechanical injury.
2. Danger of fire hazard.
3. Should not be exposed to direct sunlight.
4. Skilled workmen are required.
Bangalore

Metal Sheathed or Lead Sheathed wiring
•The wiring is similar to that of CTS but the
conductors (two or three) are individually
insulated and covered with a common outer
lead-aluminum alloy sheath.
•The sheath protects the cable against
dampness, atmospheric extremities and
mechanical damages.
Bangalore

•The sheath is earthed at every junction to
provide a path to ground for the leakage
current.
•They are fixed by means of metal clips on
wooden battens.
•The wiring system is very expensive. It is
suitable for low voltage installations.
Bangalore

Precautions to be taken during
installation
•The clips used to fix the cables on battens
should not react with the sheath
2. Lead sheath should be properly earthed
to prevent shocks due to leakage currents.
3. Cables should not be run in damp places
and in areas where chemicals (may react with
the lead) are used.
Bangalore

Advantages:
1. Easy installation and is aesthetic in
appearance.
2. Highly durable
3. Suitable in adverse climatic conditions
provided the joints are not exposed
Disadvantages:
1. Requires skilled labor
2. Very expensive
3. Unsuitable for chemical industries
Bangalore

Casing and Capping
• It consists of insulated conductors laid inside
rectangular, teakwood or PVC boxes having
grooves inside it.
•A rectangular strip of wood called capping having
same width as that of casing is fixed over it.
• Both the casing and the capping are screwed
together at every 15 cms.
•Casing is attached to the wall. Two or more wires
of same polarity are drawn through different
grooves.
•The system is suitable for indoor and domestic
installations. Praveen kumar .C, Dept. of EEE, SKIT,
Bangalore

Casing and Capping
Bangalore

Advantages:
1. Cheaper than lead sheathed and conduit wiring.
2. Provides good isolation as the conductors are
placed apart reducing the risk of short circuit.
3. Easily accessible for inspection and repairs.
4. Since the wires are not exposed to atmosphere,
insulation is less affected by dust, dirt and climatic
variations.
Disadvantages:
1. Highly inflammable.
2. Usage of unseasoned wood gets damaged by
termites.
3. Skilled workmanship required.Praveen kumar .C, Dept. of EEE, SKIT,
Bangalore

Conduit wiring
• In this system PVC (polyvinyl chloride) or VIR cables
are run through metallic or PVC pipes providing good
protection against mechanical injury and fire due to
short circuit.
•They are either embedded inside the walls or
supported over the walls, and are known as concealed
wiring or surface conduit wiring (open conduit)
respectively.
• The conduits are buried inside the walls on wooden
gutties and the wires are drawn through them with fish
(steel) wires.
•The system is best suited for public buildings,
industries and workshops.
Bangalore

Conduit wiring
Bangalore

Advantages:
1. No risk of fire and good protection against mechanical injury.
2. The lead and return wires can be carried in the same tube.
3. Earthing and continuity is assured.
4. Waterproof and trouble shooting is easy.
5. Shock- proof with proper earthing and bonding
6. Durable and maintenance free
7. Aesthetic in appearance
Disadvantages:
1. Very expensive system of wiring.
2. Requires good skilled workmanship.
3. Erection is quiet complicated and is time consuming.
4. Risk of short circuit under wet conditions (due to condensation
of water in tubes).
Bangalore

FACTORS AFFECTING THE CHOICE
OF WIRING SYSTEM
The choice of wiring system for a particular installation
depends on technical factors and economic viability.
1. Durability: Type of wiring selected should conform to
standard specifications, so that it is durable i.e. without
being affected by the weather conditions, fumes etc.
2. Safety: The wiring must provide safety against
leakage, shock and fire hazards for the operating
personnel.
3. Appearance: Electrical wiring should give an
aesthetic appeal to the interiors.
4. Cost: It should not be prohibitively expensive.Praveen kumar .C, Dept. of EEE, SKIT,
Bangalore

Cnt..
5. Accessibility: The switches and plug points
provided should be easily accessible. There must be
provision for further extension of the wiring system, if
necessary.
6. Maintenance Cost: The maintenance cost should
be a minimum
7. Mechanical safety: The wiring must be protected
against any mechanical damage
Bangalore

Two- way and Three- way Control of
Lamps:
•The domestic lighting circuits are quite simple
and they are usually controlled from one point.
But in certain cases it might be necessary to
control a single lamp from more than one point
(Two or Three different points).
• For example: staircases, long corridors, large
halls etc.
Bangalore

1 Two-way Control of lamp:
•Two-way control is usually used for staircase
lighting.
•The lamp can be controlled from two different
points: one at the top and the other at the bottom -
using two- way switches which strap wires
interconnect.
•They are also used in bedrooms, big halls and large
corridors.
• The circuit is shown in the following figure.
Bangalore

Bangalore

Explanation: -Switches S1 and S2 are two-way
switches with a pair of terminals 1&2, and 3&4
respectively. When the switch S1 is in position1 and
switch S2 is in position 4, the circuit does not form a
closed loop and there is no path for the current to flow
and hence the lamp will be OFF. When S1 is changed to
position 2 the circuit gets completed and hence the lamp
glows or is ON. Now if S2 is changed to position 3 with
S1 at position 2 the circuit continuity is broken and the
lamp is off. Thus the lamp can be controlled from two
different points.
Bangalore

2. Three- way Control of lamp:
•In case of very long corridors it may be necessary to
control the lamp from 3 different points. In such cases,
the circuit connection requires two; two-way switches
S1and S2 and an intermediate switch S3.
• An intermediate switch is a combination of two, two
way switches coupled together. It has 4 terminals ABCD.
It can be connected in two ways.
Bangalore

a) Straight connection
b) Cross connection
•In case of straight connection, the terminals or points
AB and CD are connected as shown in figure 1(a) while
in case of cross connection, the terminals AB and C D is
connected as shown in figure 1(b). As explained in two –
way control the lamp is ON if the circuit is complete and
is OFF if the circuit does not form a closed loop.
Bangalore

Bangalore

Truth table :
Bangalore

•The potential of the earth is considered to be at zero for all
practical purposes as the generator (supply) neutral is always
earthed.
•The body of any electrical equipment is connected to the earth
by means of a wire of negligible resistance to safely discharge
electric energy, which may be due to failure of the insulation,
line coming in contact with the casing etc.
• Earthling brings the potential of the body of the equipment to
ZERO i.e. to the earth’s potential, thus protecting the operating
personnel against electrical shock.
•Thus earthing is to connect any electrical equipment to earth
with a very low resistance wire, making it to attain earth’s
potential.
•The wire is usually connected to a copper plate placed at a
depth of 2.5 to 3meters from the ground level.
EARTHING:
Bangalore

BLOCK DIAGRAM
Bangalore

1. Material properties of the earth wire and the electrode
2. Temperature and moisture content of the soil
3. Depth of the pit
4. Quantity of the charcoal used
The importance of earthling is illustrated in the
following figures
•.
The earth resistance is affected by the
following factors:
Bangalore

The earth resistance is affected by the
following factors:
Bangalore

•Case I current flows only through the healthy apparatus.
No current flows through the person and does not
experience a shock.
•Case II When the supply switch S is closed with
defective insulation and apparatus not earthed, a part of
the current flows through the body and the person
experiences electrical shock.
• Case III When the supply switch S is closed with
Defective insulation and apparatus being earthed though
a small part of the current flows through the body the
person will not experience a shock.
When the supply switch S is closed in
Bangalore

1. To protect the operating personnel from danger
of shock in case they come in contact with the
charged frame due to defective insulation.
2. To maintain the line voltage constant under
unbalanced load condition.
3. Protection of the equipments
4. Protection of large buildings and all machines
fed from overhead lines against lightning.
Necessity of Earthing:
Bangalore

•The important methods of earthing are the plate
earthing and the pipe earthing.
•The earth resistance for copper wire is 1 ohm
and that of G I wire less than 3 ohms.
•The earth resistance should be kept as low as
possible so that the neutral of any electrical
system, which is earthed, is maintained almost at
the earth potential.
•The typical value of the earth resistance at
powerhouse is 0. 5 ohm and that at substation is
1 ohm.
Methods of Earthing:
Bangalore

•In this method a copper plate of 60cm x 60cm x 3.18cm
or a GI plate of the size 60cm x 60cm x 6.35cm is used
for earthing.
•The plate is placed vertically down inside the ground at
a depth of 3m and is embedded in alternate layers of
coal and salt for a thickness of 15 cm.
•In addition, water is poured for keeping the earth
electrode resistance value well below a maximum of 5
ohms.
•The earth wire is securely bolted to the earth plate.
• A cement masonry chamber is built with a cast iron
cover for easy regular maintenance.
.
1. Plate Earthing:
Bangalore

Plate Earthing:
Bangalore

•Earth electrode made of a GI (galvanized) iron pipe of
38mm in diameter and length of 2m (depending on the
current) with 12mm holes on the surface is placed
upright at a depth of 4.75m in a permanently wet ground.
• To keep the value of the earth resistance at the desired
level, the area (15 cms) surrounding the GI pipe is filled
with a mixture of salt and coal..
•the efficiency of the earthing system is improved by
pouring water through the funnel periodically. The GI
earth wires of sufficient cross- sectional area are run
through a 12.7mm diameter pipe (at 60cms below) from
the 19mm diameter pipe and secured tightly at the top
as shown in the following figure
2. Pipe Earthing
Bangalore

Pipe Earthing :
Bangalore

•Protection for electrical installation must be provided in
the event of faults such as short circuit, overload and
earth faults.
•The protective circuit or device must be fast acting and
isolate the faulty part of the circuit immediately.
•It also helps in isolating only required part of the circuit
without affecting the remaining circuit during
maintenance.
•The following devices are usually used to provide the
necessary protection:
PROTECTIVE DEVICES
Bangalore

1. Fuses
2. Relays
3. Miniature circuit breakers (MCB)
4. Earth leakage circuit breakers (ELCB)
Types
Bangalore

1. Re-wirable or kit -kat fuses: These fuses are simple in
construction, cheap and available up-to a current
rating of 200A. They are erratic in operation and their
performance deteriorates with time.
2. Plug fuse: The fuse carrier is provided with a glass
window for visual inspection of the fuse wire.
3. Cartridge fuse: Fuse wire usually an alloy of lead is
enclosed in a strong fiber casing. The fuse element is
fastened to copper caps at the ends of the casing. They
are available up-to a voltage rating of 25kV. They are
used for protection in lighting installations and power
lines.
Bangalore

4. Miniature Cartridge fuses: These are the miniature version of the
higher rating cartridge fuses, which are extensively used in
automobiles, TV sets, and other electronic equipment‟s.
5. Transformer fuse blocks: These porcelain housed fuses are placed
on secondary of the distribution transformers for protection
against short circuits and overloads.
6. Expulsion fuses: These consist of fuse wire placed in hollow tube
of fiber lined with asbestos. These are suited only for out door
use for example, protection of high voltage circuits.
7. Semi-enclosed re-wirable fuses: These have limited use because of
low breaking capacity.
8. Time-delay fuse: These are specially designed to withstand a
current overload for a limited time and find application in motor
circuits. Praveen kumar .C, Dept. of EEE, SKIT,
Bangalore

Under abnormal conditions such as short circuit, overload or
any fault the current raises above this value, damaging the
equipment and sometimes resulting in fire hazard. Fuses are
pressed into operation under such situations.
Fuse is a safety device used in any electrical installation,
which forms the weakest link between the supply and the
load. It is a short length of wire made of lead / tin /alloy of
lead and tin/ zinc having a low melting point and low ohmic
losses. Under normal operating conditions it is designed to
carry the full load current. If the current increases beyond
this designed value due any of the reasons mentioned
above, the fuse melts (said to be blown) isolating the power
supply from the load as shown in the following figures.
FUSE
Bangalore

FUSE
Bangalore

The MCB and Fuses can not provide protection against earth
leakage current
Hence there is need of a device which can directly detect the
earth leakage current and cut the supply if such currents
exceed a preset value. Such a device is called Earth
Leakage Circuit Breaker (ELCB).
Voltage operated device.
Detects the rise in potential between the protected device or
installation and an earth reference electrode.
Main disadvantage of ELCB is that if the fault is between live
and some other earth (like a person or metal pipe).
Earth Leakage Circuit Breaker (ELCB).
Bangalore

Earth Leakage Circuit Breaker:
Necessity of ECLB:
 There are certain situations where leakage current
flows through the metal bodies of appliances. Thus
person touching to such appliances may get a shock.
 There is a risk of fire due to such leakage current
flowing to the earth.
 The MCB and fuse cant provide protection against
earth leakage currents
 Hence there is a need of a device which can directly
detect the earth leakage currents and cut the supply if
such currents exceed a preset value .Such a device is
called earth leakage circuit breaker.Praveen kumar .C, Dept. of EEE, SKIT,
Bangalore

Exam questions
1. Write a short note on necessity of earthing, and precaution to be taken to
prevent electric shock.
2. Draw and explain the wiring diagram for 3 way control of lamp [June/July
2015]
3. With a neat diagram explain pipe earthing. [June/July 2015]
4. Write a short note on necessity of earthing, and precaution to be taken to
prevent electric shock.
5. Explain the necessity and the operation of earth leakage circuit breaker
6. Write the circuit diagram and switching table for 2 way and 3 way control of
lamp. Where it is used
7. Mention different types of wiring used in domestic drillings. [June/July 13]
8. Write a short note on
a) ELCB
b) MCB
Praveen kumar .C, Dept. of EEE, SKIT, Bangalore

Domestic wiring _ praveen

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